Add to ORKGWe have studied the Fermi surface of Cu using an ellipsoidal-mirror analyzer which gives two-dimensional images of photoelectron intensity versus emission angle. From these images, we have obtained the full Fermi surface of Cu in three-dimensional k-space. Our results are in excellent agreement with previous studies and provide new perspectives on Fermi surface studies. © 1995
A method of band mapping providing full control of the three-dimensional k is described in detail. A...
A method of band mapping providing full control of the three-dimensional k is described in detail. A...
When mapping spatially resolved photoemission intensity for electron kinetic energy corresponding to...
We have studied the surface state of Cu(l l l) using an ellipsoidal-mirror analyzer which gives two ...
A study of the Fermi surface of copper at room temperature has been made by means of a positron anni...
A study of the Fermi surface of copper at room temperature has been made by means of a positron anni...
We describe the use of an ellipsoidal-mirror analyzer to obtain cross-sectional images of electrons ...
We demonstrate the use of a photoelectron emission microscope in connection with a retarding field e...
We have studied the electronic dispersion of Cu and the Cu/Ru(0001) bimetallic system using photoele...
One of the fundamental properties of an electronic system is its dimensionality. Novel photoemission...
The Shockley (L-gap) surface states on Cu(111) and the vicinal (332) and (221) surfaces have been ma...
When mapping spatially resolved photoemission intensity for electron kinetic energy corresponding to...
The Fermi surface that characterizes the electronic band structure of crystalline solids can be diff...
When mapping spatially resolved photoemission intensity for electron kinetic energy corresponding to...
A method of band mapping providing full control of the three-dimensional k is described in detail. A...
A method of band mapping providing full control of the three-dimensional k is described in detail. A...
A method of band mapping providing full control of the three-dimensional k is described in detail. A...
When mapping spatially resolved photoemission intensity for electron kinetic energy corresponding to...
We have studied the surface state of Cu(l l l) using an ellipsoidal-mirror analyzer which gives two ...
A study of the Fermi surface of copper at room temperature has been made by means of a positron anni...
A study of the Fermi surface of copper at room temperature has been made by means of a positron anni...
We describe the use of an ellipsoidal-mirror analyzer to obtain cross-sectional images of electrons ...
We demonstrate the use of a photoelectron emission microscope in connection with a retarding field e...
We have studied the electronic dispersion of Cu and the Cu/Ru(0001) bimetallic system using photoele...
One of the fundamental properties of an electronic system is its dimensionality. Novel photoemission...
The Shockley (L-gap) surface states on Cu(111) and the vicinal (332) and (221) surfaces have been ma...
When mapping spatially resolved photoemission intensity for electron kinetic energy corresponding to...
The Fermi surface that characterizes the electronic band structure of crystalline solids can be diff...
When mapping spatially resolved photoemission intensity for electron kinetic energy corresponding to...
A method of band mapping providing full control of the three-dimensional k is described in detail. A...
A method of band mapping providing full control of the three-dimensional k is described in detail. A...
A method of band mapping providing full control of the three-dimensional k is described in detail. A...
When mapping spatially resolved photoemission intensity for electron kinetic energy corresponding to...